Human Milk Retains Important Immunologic Properties After Defatting

Post Natal Microbial and Metabolite Transmission: The Path from Mother to Infant

The entero-mammary pathway is a specialized route that selectively translocates bacteria to the newborn's gut, playing a crucial role in neonatal development. Previous studies report shared bacterial and archaeal taxa between human milk and neonatal intestine. However, the functional implications for neonatal development are not fully understood due to limited evidence. This study aimed to identify and characterize the microbiota and metabolome of human milk, mother, and infant stool samples using high-throughput DNA sequencing and FT-ICR MS methodology at delivery and 4 months post-partum. Twenty-one mothers and twenty-five infants were included in this study. Our results on bacterial composition suggest vertical transmission of bacteria through breastfeeding, with major changes occurring during the first 4 months of life. Metabolite chemical characterization sheds light on the growing complexity of the metabolites. Further data integration and network analysis disclosed the interactions between different bacteria and metabolites in the biological system as well as possible unknown pathways. Our findings suggest a shared bacteriome in breastfed mother-neonate pairs, influenced by maternal lifestyle and delivery conditions, serving as probiotic agents in infants for their healthy development. Also, the presence of food biomarkers in infants suggests their origin from breast milk, implying selective vertical transmission of these features.

Comprehensive nutrition guidelines and management strategies for enteropathy in children

Protein-losing enteropathy (PLE) describes a syndrome of excessive protein loss into the gastrointestinal tract, which may be due to a wide variety of etiologies. For children in whom the protein loss is associated with lymphangiectasia, medical nutrition therapy focused on restricting enteral long-chain triglycerides and thus intestinal chyle production is an integral component of treatment. This approach is based on the principle that reducing intestinal chyle production will concurrently decrease enteric protein losses of lymphatic origin. In patients with ongoing active PLE or those who are on a fat-restricted diet, particularly in infants and young children, supplemental calories may be provided with medium-chain triglycerides (MCT). MCT are absorbed directly into the bloodstream, bypassing intestinal lymphatics and not contributing to intestinal chyle production. Patients with active PLE or who are on dietary fat restriction should be monitored for associated micronutrient deficiencies. In this paper, we seek to formally present recommended nutrition interventions, principles of dietary education and patient counseling, and monitoring parameters in pediatric populations with PLE based on our experience in a busy clinical referral practice focused on this population.

The Practicality of Preparing Skim Breast Milk at Home for Treatment of Infants Requiring Low Fat Diets

Introduction: The benefits of breast milk (BM) for infants have long been established. However, for health-compromised infants with difficulty processing long-chain triglycerides, BM is often discontinued, and skimmed breast milk (SBM) is used as a dietary treatment. SBM is usually produced for inpatients in a hospital laboratory. The aim of this study was to determine the viability of skimming BM at home. Case Report: A female infant was diagnosed with congenital lipomatous asymmetric overgrowth, vascular malformations, epidermal nevi, and skeletal and spinal anomalies (CLOVES) syndrome, with symptoms of lymphatic malformation, chylothorax, and pleural effusion. The patient's family produced SBM at home after discharge; the SBM met the dietary treatment requirements and kept symptoms under control. Methods: A nonrefrigerated benchtop centrifuge was used to produce SBM at the patient's home. The optimal setting for the centrifuge was determined and then used to process BM samples from the infant's mother. The samples were randomly selected from each 10-day period over 6 months, and 18 samples were processed in total. The hospital laboratory processed the same samples of BM and analyzed the macronutrients with a comparison of the home-produced SBM to the hospital-produced SBM. Results: The home-produced SBM met the dietary treatment requirement of <1.0 g/dL of fat content. Fat was significantly lower, proteins were significantly higher, and carbohydrates and calories were not significantly different compared to hospital-produced SBM. Conclusions: It is viable to consistently produce SBM at home that meets the dietary treatment requirements of health-compromised infants.

Nutrition for critically ill children with congenital heart disease

Children with congenital heart disease often require admission to the cardiac intensive care unit at some point in their lives, either after elective surgical or catheter-based procedures or during times of acute critical illness. Meeting both the macronutrient and micronutrient needs of children in the cardiac intensive care unit requires complex decision-making when considering gastrointestinal perfusion, vasoactive support, and fluid balance goals. Although nutrition guidelines exist for critically ill children, these cannot always be extrapolated to children with congenital heart disease. Children with congenital heart disease may also suffer unique circumstances, such as chylothoraces, heart failure, and the need for mechanical circulatory support, which greatly impact nutrition delivery. Guidelines for neonates and children with heart disease continue to be developed. We provide a synthesized narrative review of current literature and considerations for nutrition evaluation and management of critically ill children with congenital heart disease.

Influence of Defatting and Pasteurization on Nutrients and Oxidative Stress Markers in Human Milk

BACKGROUND

It is well known that the best nutritional option for infants is human milk, and that when breastfeeding is not possible, human milk banks are a possible alternative. However, in the case of infants with fat transport disorder like chylothorax, defatting of human milk is mandatory.

RESEARCH AIM

The aim of the study was to reduce milk fat content without reducing other nutrients, increasing oxidative stress, or introducing harmful microorganisms.

METHODS

In this prospective, cross-sectional, observational study, we examined the influence of defatting and pasteurization of 50 donor samples on fat, macro- and micronutrients, as well as on oxidative stress markers.

RESULTS

Low-temperature centrifugation proved to be very efficient in defatting, reducing the concentration of triglycerides by 85% and cholesterol by 50%. The macronutrients (proteins, albumin, and Immunoglobulin A) did not undergo significant changes due to defatting and pasteurization procedures, while iron decreased by 36%. However, as the majority of iron is retained, this result does not remarkably change the milk composition. Furthermore, oxidative stress markers and antioxidant levels were unchanged, and the milk result was microbiologically safe.

CONCLUSIONS

Cold milk centrifugation proved to be an effective technique that allows the reduction of human milk lipids. The determination of triglycerides and cholesterol can be used as an indicator of skimming. This procedure is not accompanied by substantial modifications of other components present in the milk.

Postoperative Chylothorax in Neonates and Infants after Congenital Heart Disease Surgery-Current Aspects in Diagnosis and Treatment

Postoperative chylothorax is a rare complication following cardiac surgery for congenital heart disease (CHD) in the pediatric population, including neonates and infants. Multiple mechanisms are involved in the development of postoperative chylous effusions, mainly the traumatic injury of lymphatic vessels, systemic venous obstruction and dysfunction of the right ventricle. In this review, we focus on the existing evidence regarding the definition and diagnosis of postoperative chylothorax in children with CHD, as well as current therapeutic approaches, both nutritional and interventional, for the management of these patients. As part of nutritional management, we specifically comment on the use of defatted human milk and its effect on both chylothorax resolution and patient growth. A consensus with regard to several key aspects of this potentially significant complication is warranted given its impact on the cost, morbidity and mortality of children with CHD.

Hmgcs2-mediated ketogenesis modulates high-fat diet-induced hepatosteatosis

OBJECTIVE

Aberrant ketogenesis is correlated with the degree of steatosis in NAFLD patients, and an inborn error of ketogenesis (mitochondrial HMG-CoA synthase deficiency) is commonly associated with the development of the fatty liver. Here we aimed to determine the impact of Hmgcs2-mediated ketogenesis and its modulations on the development and treatment of fatty liver disease.

METHODS

Loss- and gain-of-ketogenic function through in vivo and in vitro models, achieved by Hmgcs2 knockout and overexpression, respectively, were examined to investigate the role of ketogenesis in the hepatic lipid accumulation during neonatal development and the diet-induced NAFLD mouse model.

RESULTS

Ketogenic function was decreased in NAFLD mice with a reduction in Hmgcs2 expression. Mice lacking Hmgcs2 developed spontaneous fatty liver phenotype during postnatal development, which was rescued by a shift to a low-fat dietary composition via early weaning. Hmgcs2 heterozygous mice, which exhibited reduced ketogenic activity, were more susceptible to diet-induced NAFLD development, whereas HMGCS2 overexpression in NAFLD mice improved hepatosteatosis and glucose homeostasis.

CONCLUSIONS

Our study adds new knowledge to the field of ketone body metabolism and shows that Hmgcs2-mediated ketogenesis modulates hepatic lipid regulation under a fat-enriched nutritional environment. The regulation of hepatic ketogenesis may be a viable therapeutic strategy in the prevention and treatment of hepatosteatosis.

Chylothorax: A Stepwise Approach to Diagnosis and Treatment

Chylothorax, a lymphatic flow disorder characterized by an abnormal circulation of lymph fluid into the pleural cavity, is the most common cause of pleural effusions during the neonatal period. This condition affects 1/15,000 neonates every year. Affected neonates often manifest with respiratory distress, electrolyte imbalances, sepsis, and even immunodeficiencies. Mortality risk is highest among neonates undergoing cardiac surgery as well as those with associated hydrops fetalis. Conservative treatment options include bowel rest with administration of parenteral nutrition, followed with medium-chain triglyceride enteral feedings, and octreotide therapy. Severe or persistent cases require surgical intervention. This can involve a unilateral or bilateral pleurectomy and thoracic duct ligation, with or without pleurodesis. Early identification and successful treatment of this condition is contingent upon awareness of the most current evidence and a timely cross-disciplinary approach to care.